Power converter circuit with AC output

1. A power converter circuit, comprising: a synchronization circuit configured to generate at least one synchronization signal as a rectified alternating signal; at least one series circuit comprising a plurality of converter units configured to output an overall output current; and an unfolding circuit configured to convert the overall output current received from the series circuit into an alternating output current, wherein at least one of the plurality of converter units is configured to generate an output current such that at least one of a frequency and a phase of the generated output current is dependent on the synchronization signal.

2. The power converter circuit of claim 1 , wherein the power converter circuit is configured to receive an external voltage; and wherein the synchronization circuit is configured to generate the synchronization signal dependent on a voltage level of the external voltage.

3. The power converter circuit of claim 2 , wherein the synchronization circuit is configured to generate the synchronization signal such that there is a phase difference between the external voltage and the synchronization signal.

4. The power converter circuit of claim 3 , wherein the phase difference is substantially equal to zero.

5. The power converter circuit of claim 1 , wherein the unfolding circuit comprises: a first half-bridge coupled to the series circuit; a second half-bridge coupled to the series circuit; and a drive circuit configured to drive the first half-bridge and the second half-bridge.

6. The power converter circuit of claim 5 , wherein the drive circuit is configured to drive the first half-bridge and the second half-bridge based on one signal selected from the group consisting of: an external voltage received at output terminals; a rectified version of the external voltage; and the synchronization signal.

7. The power converter circuit of claim 1 , wherein each of the converter units comprises a converter configured to receive a direct voltage and to output the output current.

8. The power converter circuit of claim 7 , wherein the converter comprises a topology selected from the group consisting of: a buck converter topology; a buck-boost converter topology; and a boost-buck converter topology.

9. A method, comprising: generating at least one synchronization signal by a synchronization circuit, wherein generating the at least one synchronization signal comprises generating a rectified alternating signal; outputting an overall output current by at least one series circuit comprising a plurality of converter units; and generating an output current by at least one of the plurality of converter units such that at least one of a frequency and a phase of the generated output current is dependent on the synchronization signal, wherein generating the output current comprises converting the overall output current outputted by the series circuit into an alternating output current.

10. The method of claim 9 , receiving an external voltage by a power converter circuit; and generating the synchronization signal based on a voltage level of the external voltage by the synchronization circuit.

11. The method of claim 10 , further comprising generating the synchronization signal such that there is a phase difference between the external voltage and the synchronization signal.

12. The method of claim 11 , wherein the phase difference is substantially equal to zero.

13. The method of claim 9 , wherein converting the overall output current outputted by the series circuit into an alternating output current comprises using an unfolding circuit comprising: a first half-bridge coupled to the series circuit; a second half-bridge coupled to the series circuit; and a drive circuit configured to drive the first half-bridge and the second half-bridge.

14. The method of claim 13 , wherein the first half-bridge and the second half-bridge are driven based on one signal selected from the group consisting of an external voltage received at output terminals; a rectified version of the external voltage; and the synchronization signal.

15. The method of claim 9 , further comprising receiving a direct voltage by a converter in each of the converter units, and outputting the output current by the converter.

16. The method of claim 15 , wherein the converter comprises a topology selected from the group consisting of: a buck converter topology; a buck-boost converter topology; and a boost-buck converter topology.

17. A power converter circuit, comprising: means for generating at least one synchronization signal, wherein the means for generating the at least one synchronization signal are configured to generate the at least one synchronization signal as a rectified alternating signal; means for outputting an overall output current; means for generating an output current such that at least one of a frequency and a phase of the generated output current is dependent on the synchronization signal; and means for converting the overall output current received from the means for outputting the overall output current into an alternating output current.